October 2014 CAMBRIDGE TO MILTON PASSENGER RAIL BUSINESS CASE AND IMPLEMENTATION STRATEGY Final Report CAMBRIDGE TO MILTON PASSENGER RAIL i BUSINESS CASE AND IMPLEMENTATION STRATEGY EXECUTIVE SUMMARY The City of Cambridge and Region of Waterloo are requesting the Province to initiate GO Train service on the CP rail line between Milton and Cambridge as quickly as possible. A Feasibility Study for the extension of intercity passenger rail service to Cambridge was completed in 2009 and determined that the preferred routing option was to extend the current GO Train service from Milton rather than connecting Cambridge to the GO Train service on the north mainline at Guelph. The 2009 Passenger Rail Feasibility Study (2009 Study) includes estimates for capital and operating costs and provides ridership and revenue forecasts for 2021 and 2031 horizon years. The study assumed that the service extension would follow GO Transit’s traditional approach of starting the new service with four peak period trains and increasing the number of peak period trains in response to demand. The team of Dillon Consulting Limited and Hatch Mott MacDonald was retained by the City of Cambridge to augment the 2009 Study by developing three additional scenarios that build on the previous work; explore the opportunity to start the train service quickly and with lower investment; test other important transit travel markets and promote a less auto-centric approach to station access and commuter service design. Scenario 1 starts the new service with two 12-car GO Trains, no storage yard in Cambridge and three (rather than four) stations of minimum design. This Scenario was developed to represent the fastest possible implementation with the lowest initial capital investment. The final investment requirements and timing of the start-up of service will require further negotiation between CP and GO Transit. Metrolinx is acquiring Diesel Multiple Unit (DMU) trains to provide a passenger rail connection from Union Station to Pearson International Airport and these vehicles are designed to be suitable for operation on a freight rail line1 . This technology (which can operate as a self-propelled single vehicle or in multiple car train sets), may provide new and significant intercity passenger rail opportunities when applied more broadly on the GO Rail network. Scenario’s 2 and 3 were designed to use the Cambridge rail service extension to test DMU flexibility, performance, operating cost, customer acceptance, infrastructure requirements and its ability to address intercity passenger rail markets. Scenario 2 uses only DMU technology for the Cambridge to Milton rail service and tests a variety of transit travel markets. Scenario 3 uses a blend of DMU vehicles and 12-car trains for the service. DMU’s in the appropriate applications will have some significant advantages over the traditional 12-car trains, including: lower operating costs (reduced energy consumption and crewing); improved acceleration/deceleration performance giving faster trip times; lower infrastructure costs through shorter platform/siding requirements; reduced physical impacts in an urban environment (e.g. shorter delays at level crossings); greater ability to be integrated with local transit buses and LRT’s in multimodal 1 Note: CP expressed concerns with mixing DMU’s and freight services on its rail line and these potential concerns need to be discussed with CP prior to moving forward. DILLON CONSULTING LIMITED IN ASSOCIATION WITH HATCH MOTT MACDONALD CAMBRIDGE TO MILTON PASSENGER RAIL ii BUSINESS CASE AND IMPLEMENTATION STRATEGY stations (due to the shorter platform requirements, which makes integration into an urban multi-modal station much easier); and improved reliability of the total corridor (e.g. delays on the outer DMU section of the corridor would not affect 12-car train service on the inner section of the corridor). Customer reaction to the DMU’s (including AODA compliance), ridership impacts of a ‘train-to-train’ transfer and a host of scheduling, operational and equipment compatibility issues are potential concerns and will also need to be tested and assessed. Either through the traditional approach of implementing 12-car trains or by testing promising DMU technology for intercity passenger rail service, residents and employers in Cambridge are seeking the earliest possible implementation of GO Train service. Other municipalities along the full service corridor will also benefit, through new stations, provision of an improved intercity passenger rail service for their residents and employees, and the development of a transit option for regional travel markets. The close proximity of the CP rail line to the heavily congested Highway 401, combined with the fast and reliable travel times that will be possible for rail commuters on this corridor, suggest a great opportunity for the Province to achieve positive economic and environmental results from the early implementation of GO Train service to Cambridge. The Table below summarizes the results of the previous business case and the three new scenarios. The significant advantages of applying DMU technology on the GO Rail network, including the opportunity to address more regional travel markets with a high quality transit service, suggest that Scenario 2 would be an excellent application for the Milton to Cambridge service extension. Summary of Ridership, Revenue and Costs for GO Train Expansion to Cambridge (2021 Horizon) Annual Ridership Annual Revenue Annual Scenario Capital Cost Low High Low High Operating Cost 2009 Feasibility Study 225,600 415,100 $1.9M $3.6M $3,8M $110M 4 peak GO Trains Scenario 1 142,800 285,600 $1.2M $2.5M $2M $32M to $85M 2 peak GO Trains Scenario 2 134,800 293,100 $1.2M $2.5M $20M to 73M 4 DMU trains Scenario 3 150,100 301,600 $1.3M $2.6M $35M to 89M 2 DMU, 2 GO Trains Notes: 1. All Revenue, Operating and Capital Costs in $2009 2. Ridership forecast is for 2021 3. GO Train refers to traditional 12-car consist 4. Annual operating costs for DMU’s are not yet known but will be less than 12-car GO Trains DILLON CONSULTING LIMITED IN ASSOCIATION WITH HATCH MOTT MACDONALD CAMBRIDGE TO MILTON PASSENGER RAIL iii BUSINESS CASE AND IMPLEMENTATION STRATEGY TABLE OF CONTENTS Page No. 1.0 INTRODUCTION .....................................................................................................................1 2.0 THE TRADITIONAL APPROACH TO INTRODUCING GO TRAIN SERVICE .......................................3 2.1 2009 BUSINESS CASE: FOUR PEAK TRAINS GROWING TO 7 PEAK TRAINS ......................................................... 4 2.1.1 Description of the Scenario’s ................................................................................................ 4 2.1.2 Station and Yard Locations .................................................................................................. 4 2.1.3 Proposed Train Schedules .................................................................................................... 4 2.1.4 Capital Expenditures ............................................................................................................ 5 2.1.5 Operating Costs .................................................................................................................... 6 2.1.6 Ridership and Revenue ......................................................................................................... 6 2.2 SCENARIO 1: TWO PEAK PERIOD 12-CAR GO TRAINS ................................................................................... 6 2.2.1 Description of the Scenario .................................................................................................. 6 2.2.2 Station Locations .................................................................................................................. 6 2.2.3 Proposed Train Schedule ...................................................................................................... 7 2.2.4 Capital Costs (CAPEX) ........................................................................................................... 7 2.2.5 Operational Costs ................................................................................................................. 8 2.2.6 Ridership and Revenue ......................................................................................................... 8 2.3 SUMMARY TABLES FOR THE TRADITIONAL APPROACH ................................................................................. 10 2.4 LIMITATIONS OF THE TRADITIONAL APPROACH ........................................................................................... 11 3.0 DIESEL MULTIPLE UNITS (DMUS) .......................................................................................... 12 3.1 TECHNICAL DESCRIPTION OF A DMU ....................................................................................................... 13 3.2 DMU COMPATIBILITY WITH FREIGHT RAIL EQUIPMENT AND OPERATIONS ...................................................... 17 3.3 DMU’S AND CANADIAN CONTENT .......................................................................................................... 18 4.0 DEMONSTRATING SOME NEW APPROACHES ........................................................................ 19 4.1 SCENARIO 2: FOUR PEAK PERIOD HEAVY DMUS ....................................................................................... 19 4.1.1 Description of the Scenario ...............................................................................................
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